A small number of babies die unexpectedly while still in the womb: the numbers are much higher than those dying from Sudden Infant Death Syndrome (SIDS). Some of these babies slow their movements down in the days before death. It would be very helpful to be able to accurately monitor babies' movements in the womb so that we could help the few babies who need it, and so prevent poor outcomes. Mothers feel their babies moving, but it's often hard for them to pick up all the movements that do occur ....A small number of babies die unexpectedly while still in the womb: the numbers are much higher than those dying from Sudden Infant Death Syndrome (SIDS). Some of these babies slow their movements down in the days before death. It would be very helpful to be able to accurately monitor babies' movements in the womb so that we could help the few babies who need it, and so prevent poor outcomes. Mothers feel their babies moving, but it's often hard for them to pick up all the movements that do occur. The best way of measuring babies' movements is during an ultrasound. However, that's expensive and means that the pregnant mother needs to lie still for about half an hour to have this testing done. We are developing a way of recording babies' movements, which still lets the pregnant woman continue with her normal activities. We will do this using an AMBULATORY FETAL ACTIVITY MONITOR, which is an accelerometer, like an advanced pedometer. The ambulatory fetal activity monitor will measure the activity of the unborn baby during pregnancy, looking at the number of times s-he moves and how simple or complex the movements are. We expect that the unborn baby who is not getting enough nutrition during the pregnancy will have fewer movements than other unborn babies. This project involves checking that movements picked up by the ambulatory fetal activity monitor are the same as movements seen on an ultrasound. We will then monitor a large number of pregnant women with healthy and possibly unhealthy babies, to help identify the babies who need help. Once we have this information, we will be able to use it in the future to possibly prevent poor outcomes in those babies who do need help.Read moreRead less
Developmental Programming: Mechanisms And Interventions
Funder
National Health and Medical Research Council
Funding Amount
$705,501.00
Summary
Disturbances during pregnancy can impact on developmental processes and result in increased risk of disease in later life. This project will examine the impact of perturbations such as maternal stress or alcohol consumption on the development of the placenta and fetal kidney. By gaining an understanding of how these organs are affected by prenatal insults, we are likely to be able to develop more effective intervention strategies to ensure all babies receive a healthy start to life.
Improving The Neonatal Transition In Infants With A Congenital Diaphragmatic Hernia
Funder
National Health and Medical Research Council
Funding Amount
$551,644.00
Summary
Congenital diaphragmatic hernia is a common congenital abnormality and occurs when the diaphragm fails to separate the abdominal and thoracic compartments before birth. This prevents the lung from growing properly and so at birth, the lung is unable to take over the role of gas exchange without considerable assistance. As a result, these infants are at high risk of death or significant disability and this application is focused on improving care and reducing morbidity in these infants.
Genetic Autopsy Of Perinatal Death: Diagnosis And Discovery By Genome Sequencing
Funder
National Health and Medical Research Council
Funding Amount
$989,332.00
Summary
Stillbirth, miscarriage and genetic termination of pregnancy are common and traumatic events. Despite medical investigation, many of the causes of these events are unexplained. This project plans to employ the latest in whole genome sequencing and functional modelling to explain these occurrences as well as lead to an increase in knowledge of genetics and development.
The Role Of Hypoxia In The Developmental Programming Of The Kidney
Funder
National Health and Medical Research Council
Funding Amount
$651,276.00
Summary
We aim to understand how inadequate oxygen supply to the fetus during pregnancy can affect development of the kidney. Many babies do not get enough oxygen whilst developing in the womb. This can be due to a poorly formed placenta or the mother smoking. This can interfere with normal growth and formation of the kidney. Our knowledge may help babies get the best start to life.
The Consequences Of Innate Anti-viral Effector Responses On Reproductive Outcomes In Placental Mammals
Funder
National Health and Medical Research Council
Funding Amount
$328,060.00
Summary
The mother's immune system can tolerate the growth of an ostensibly foreign fetus during pregnancy. We will investigate whether exposure to viral infections either just before or during pregnancy can result in reduced fertility and whether it may affect fetal growth and development. These results will contribute in designing effective interventions to limit any potential detrimental outcomes.
Differential Effects On Fetal Growth And Development Of Repeated Fetal Or Maternal Corticosteroid Treatments
Funder
National Health and Medical Research Council
Funding Amount
$356,849.00
Summary
Injections of synthetic hormones (corticosteroids) to women at risk of early preterm birth reduce the rate of respiratory illness and death in the newborn infant. It is standard clinical practice prior to early preterm birth to give corticosteroids by intramuscular injection to the mother. For many women, however, preterm birth does not occur as expected and it has become common practice to give repeated courses of corticosteroids to women in whom the risk of preterm delivery recurs or continues ....Injections of synthetic hormones (corticosteroids) to women at risk of early preterm birth reduce the rate of respiratory illness and death in the newborn infant. It is standard clinical practice prior to early preterm birth to give corticosteroids by intramuscular injection to the mother. For many women, however, preterm birth does not occur as expected and it has become common practice to give repeated courses of corticosteroids to women in whom the risk of preterm delivery recurs or continues. Using the sheep model, we have shown that repeated doses of corticosteroids, given intramuscularly to the mother, are of benefit to newborn lung function, but also reduce the rate of fetal growth and adversely affect brain development. Evidence from the Western Australian Preterm Infant Cohort Study suggests that birthweight in humans is similarly affected by repeated corticosteroids and is followed by behavioral disorders in childhood. Using sheep, we have shown that repeated injections of corticosteroids given directly to the fetus cause no reduction in birthweight although maturation is still enhanced. This finding of a differential effect of corticosteroids by different routes of administration raises several exciting opportunities and questions. First is the possibility that direct fetal treatment may be of use in humans, if current human trials show that repeated doses cause effects similar to those we have seen in sheep. Secondly, the finding challenges our current understanding of how an individual may be programmed for subsequent health or illness by prenatal events. The proposed study will attempt to explain why corticosteroids given to the mother, but not the fetus, restrict fetal growth. Our hypothesis is that these hormones, when given repeatedly to the mother, adversely affect the ability of the placenta to transfer essential nutrients to the fetus. We will test this hypothesis using pregnant sheep in which catheters have been implanted surgically.Read moreRead less
Understanding And Preventing Adverse Developmental Effects Of Perinatal Infection/inflammation
Funder
National Health and Medical Research Council
Funding Amount
$621,458.00
Summary
Exposure of babies to infection or inflammation within the womb is common and is associated with preterm delivery and illness in newborns. The biggest problem for these babies is lung disease due to inflammation of the lungs before birth and/or in response to lung injury after birth. We are investigating how inflammation alters lung development, and working on developing a novel cell therapy to prevent life-threatening newborn lung disease.